Лицензия № ЛО-77-01-004871
8 499 783 00 97
Специальная забота
Кабинет экстракорпоральной ударно-волновой терапии (ЭУВТ)
Лечение боли



Литература об эффективности метода УВТ

  1. Бурмакова Г.М. Современные методы лечения пояснично-крестцового болевого синдрома у спортсменов и артистов балета // Жур. Физкультура в профилактике, лечении и реабилитации. - 2003. - №3. – С. 27-31.
  2. Бурмакова Г.М. Пояснично-крестцовые боли у спортсменов и артистов балета // Автореферат дис. докт. мед.наук. – 2004. –C. 49.
  3. Зубков А.Д., Гарилевич Б.А., Олефир Ю.В. Экспериментальное исследование воздействия низкоэнергетических ударно-волновых импульсов на метаболические и репаративные процессы в тканях// Воен.-мед. журнал. - 2005. - Т. CCCXXYI. - С. 59.
  4. Миронов С.П., Бурмакова Г.М., Крупаткин А.И., Михайлова С.А., Покинь-Череда Г.Д. Комплексная диагностика миофасциального пояснично-крестцового болевого синдрома у спортсменов и артистов балета // Вестн. Травматол. Ортопед. - 2012. - № 2. - С. 19-26.
  5. Миронов С.П., Бурмакова Г.М., Крупаткин А.И., Покинь-Череда Г.Д. Экстракорпоральная ударно-волновая терапия миофасциального пояснично-крестцового болевого синдрома у спортсменов и артистов балета // Российский журнал боли. – 2011. - №2 (31). – С. 71.
  6. Миронов С.П., Бурмакова Г.М., Крупаткин А.И., Покинь-Череда Г.Д. Экстракорпоральная ударно-волновая терапия при лечении пояснично-крестцового миофасциального болевого синдрома у спортсменов и артистов балета (описание клинического случая) // Вестн. Травматол. Ортопед. - 2011. - № 2. - С. 110-111.
  7. Миронов С.П., Бурмакова Г.М., Крупаткин А.И., Покинь-Череда Г.Д. Возможности экстракорпоральной ударно-волновой терапии при лечении миофасциального пояснично-крестцового болевого синдрома у спортсменов и артистов балета // Медицинский совет. – 2011. - №7-8.
  8. Amelio E., Manganotti P. Effect of Shock Wave Therapy in Patients Affected by Stroke with Upper Limb Spasticity: Neurophysiologic and Clinical Study //7th Congress of the ISMST Abstracts Kaohsiung. - 2004. - P. 96.
  9. Auersperg V., Dorotka R., Dohnalek C.H., Wanke S.T., Schaden W. ExtrakorporaleStoßwellentherapie (ESWT) ausorthopädischer und traumatologischerSicht // Jour. Mineralstoffwechsel. – 2004. – Vol. 11. – P. 19-28.
  10. Bachmann C.E. et al. ESWT and ultrasound imaging of the musculoskeletal system // Darmstadt. - 2001.
  11. Bauermeister W. The diagnosis and treatment of myofascial trigger points using shockwaves// Myopain. Munich: Haworth. - 2004. P. 267-271.
  12. Bauermeister W. Diagnosis and therapy of myofascial trigger point symptoms by localization and stimulation of sensitized nociceptors with focused ultrasound shockwaves // MedizinischOrthopädischeTechnik. -2005. – vol 5. –P. 65-74.
  13. Boddeker R., Schafer H., Haake M. Extracorporeal shockwave therapy (ESWT) in the treatmentof plantar fasciitis--a biometrical review. Clin. Rheumatol. – 2001. – Vol. 20(5). –P. 324-330.
  14. Brendel W., Delius M., Goetz A. Effect of shock waves on the microvasculature // Prog. Appl. Microcirculation. - 1987. - Vol. 12. - P. 41-50.
  15. Brummer F., Brümmer T., Hiilser D. Biological effects of shock waves // World J. Urol. - 1990. - Vol. 8. - P. 224-232.
  16. Buselli P., Saggin R. ESWT in ossificans myositis // 3rd Congress of the ISMST Abstracts Naples. - 2000. - P. 83.
  17. Chen Y.J., Wang C.J, Chen S.- M.S., Huang H.C, Yang Y.J, Wang F.S. Actication of extracellular signal-regulated kinease (ERK) an p38 kinease in shock wave promoted bone formation of segmental defects in rats // J. Bone. -2004. –Vol.34. – P.466-477.
  18. Chen Y.J., Wang C.J, Chen S.- M.S., Huang H.C., Yang Y.J, Huang Y.T. Shock wave attenuates interleukin-1 beta, cyclooxigenase-2 an Prostaglandin E2 receptor expression during healing of collagenase-induced Achilles tendonitis rats // 7th ISMST-Congress, Kaohsuing. – 2004. –P. 16, (Abstr.).
  19. Chung B., Wiley J.R. Extracorporeal Shockwave therapy: a review // Sports Med. - 2002. - № 32. - P. 851-865.
  20. Davis T. A., Stojadinovic A., et al. Extracorporeal shock wave therapy suppresses the early proinflammatory immune response to a severe cutaneous burn injury // Int. Wound J. – 2009. – Vol. 6(1). – P. 11-21.
  21. Dorotka R., Kubista B., Schatz KD., et al. Effects of extracorporeal shock waves on human articular chondrocytes and ovine bone marrow stromal cells in vitro // Arch.Orthop. Trauma Surg. - 2003. – Vol.123. – P. 345-348.
  22. Fuente M., Long Y., Hein M., Röhl A., Becker M., Radermacher K. Investigation of the correlation between shockwave induced mechanical stress and biological response // Abstracts, 14th congress of the ISMST. – 2010/ - P. 27.
  23. Gerdesmeyer L. et al. Extracorporeal shock wave therapy for the treatment of chronic calcifying tendonitis of the rotator cuff: a randomized controlled trial // JAMA 290. – 2003. – P. 2573-2580.
  24. Gleitz M. Trigger shockwave therapy with radial and focused shockwaves // Current status Orthopädische Praxis. -2006. – vol. 42, № 5. – P. 303-312.
  25. Haake M., Buch M., Schoellner C., Goebel F., Vogel M., Mueller I., Hausdorf J., Zamzow K., Schade-Brittinger C., Mueller H. H. Extracorporeal shock wave therapy for plantar fasciitis: randomised controlled multicentre trial // BMJ. – 2003. –Vol. 327. –P. 75-9.
  26. Haupt G. Use of extracorporeal shock waves in the treatment of pseudoarthrosis, tendopathy and other orthopedic diseases // J. Urol. 1997. - Vol.158. -P.4-11.
  27. Hausdorf J., Schmitz C., AverbeckВ., Maier M. Molecular basis for pain mediating properties of extracorporeal shock waves // Schmerz. 2004. - Vol.18(6). - P.492-497.
  28. Helbig K., Herbert C., Schostok T., Brown M., Thiele R. Correlations between the duration of pain and the success of shock wave therapy // Clin. Orthop. – 2001. –Vol. 387. –P. 68-71.
  29. Holfeld J. IVSWT – In Vitro Shock Wave Treatment// ISMST Newsletter. -2010 May. – Vol.1. - P. 6-7.
  30. Hong C.Z., Hsueсh T.C., Simons D.G. Difference in pain relief after trigger point injections in myofascial pain patients with and without fibromyalgia. // J. Musculoske Pain. – 1995. - Vol 3(Suppl 1). –P. 60, (Abstract).
  31. Kertzman P., Moreira M. ESWT for athletic injuries during competition Abstracts, 14th congress of the ISMST. – 2010/ - P. 28-29.
  32. Loew M., Jugorwski W., Thomsen M. Treatment of calcifying tendonitis of rotator cuff by extracorporeal shock waves: a preliminary report // J. Shoulder Elbow Surg. – 1995. – Vol. 4. – P. 101- 106.
  33. Lohse-Busch H., Kraemer M., Reime U. A pilot Investigation into the Effects of Extracorporeal Shock Waves on Muscular Dysfunction in Children with Spastic Movement Disorders // Schmerz. – 1997. – Vol. 11(2). – P. 108-112.
  34. Lohse-Busch H, Kraemer M, Reime U. The use of extracorporeal shock wave fronts for treatment of muscle dysfunction on various etiologies: an overview of first results // In: Siebert W, Buch M (eds) Extracorporeal shock waves in orthopaedics, Springer, New York. – 1997. –Р. 215–230.
  35. Maier M., Averbeck B., Milz S., Refior H. J., Schmitz C. Substance P and prostaglandin E2 release after shock wave application to the rabbit femur // ClinOrthopRelat Res. – 2003. – Vol.406. – P. 237-245.
  36. Mariotto S., Cavalieri E., Amelio E., Ciampa A. R., de Prat, A. C., Marlinghaus E., et al. Extracorporeal shock waves: from lithotripsy to anti-inflammatory action by NO production // Nitric Oxide. – 2005. – Vol. 12(2). – P. 89-96.
  37. Mittermayr R., J. Hartinger et al. Extracorporeal shock wave therapy (ESWT) minimizes ischemic tissue necrosis irrespective of application time and promotes tissue revascularization by stimulating angiogenesis // Ann. Surg. - 2011. – Vol. 253(5). – P. 1024-1032.
  38. Müller-Ehrenberg H, Licht G. Diagnosis and therapy of myofascial pain syndrome with focused shock waves (ESWT) // Medizinisch Orthopädische Technik. – 2005. - Vol 5. P. 1-6.
  39. Nedelka T., Nedelka J., Schlenker J., Steindler J. A Comparative Effectiveness Evaluation of Shockwave Therapy, Steroid Injections and Radiofrequency Medial Branch Neurotomy for Lumbar Facet Join Pain // Abstracts, 15th congress of the ISMST. – 2012. - P. 29.
  40. Neuland H., Duchstein H., Mei, W. Grundzüge der molekularbiologischen Wirkung der extrakorporalen Stosswellen am menschlichen Organismus - In-vitro- und In-vivo-Untersuchung // Orthopädische Praxis. – 2005. – Vol. 40(9). – P. 488-492.
  41. Ottone M., Fagnani F., Roldi E. M.. The Importance of Total Energy Emitted in the Results of ESWT // Abstracts, 14th congress of the ISMST. – 2010/ - P. 37-38.
  42. Rompe J.D., Rumler F., Hopf C., Nafe B., Heine J. Extracorporeal waves shock therapy for calcifying tendonitis of the shoulder //ClinOrthop. – 1995. – Vol. 321. – P. 196-201.
  43. Rompe J. D., Eysel P., Hopf C., Krischek O., Vogel J., Burger R., Jage J., Heine J. Extracorporeal shockwave therapy in orthopedics. Positive results in tennis elbow and tendinosiscalcarea of the shoulder //Fortschr Med. – 1997.– Vol. 115. – P. 29-33.
  44. Rompe J.D, Hopf C., Küllmer K., Heine J., Bürger R. Analgetic effect of extracorporeal shock wave therapy on chronic tennis elbow // J. Bone Joint Surg. Br. – 1996. – Vol. 78. – P.233- 237.
  45. Rozenblat M. Simultaneos use of radial shock wave therapy and hyperbaric gaseous cryotherapy for the treatment of sporting injuries // Journal de traumatologie German und der berdruck-Kryothera- du sports. – 2001. - Vol.20, No.4. – P. 12-18.
  46. Schaden W., Thiele R., Kolpl C., Pusch M., Nissan A., Attinger C., Maniscalco-Theberge M. Shock wave therapy for acute and chronic soft tissue wounds: a feasibility study // The Journal of surgical research. -2007. – Vol. 143(1). – P. 1-12.
  47. Stojadinovic A. et al. Angiogenic response to extracorporeal shock wave treatment in murine skin isografts // Angiogenesis. - 2008.
  48. Seidl M., Steinbach P., Wörle K., et al. Induction of stress fibers and intercellular gaps in human vascular endothelium by shock-waves // Ultrasonics. – 1994. – Vol. 32. – P.397–400.
  49. Seidl M., Steinbach P., Hofstädter F. Shock wave induced endothelial damage. In situ analysis by confocal laser scanning microscopy // Ultrasound Med Biol. – 1994. – Vol. 20. – P. 571–578.
  50. Siebert W., Buch M. Extracorporeal shockwaves in orthopedics // Berlin: Springer. – 1997.
  51. Steinbach P., Hofstaedter F., Nicolai H. Determination of the energy dependent extent of vascular damage caused by high-energy shockwaves in an umbilical cord model // Urol Res. -1997. – Vol. 21. – P. 279–282.
  52. Wang, C. J. An overview of shock wave therapy in musculoskeletal disorders// Chang Gung Med J. – 2003. – Vol. 26(4). – P. 220-232.
  53. Wang C.J, Wang F.S, Yang K.D. Biological mechanism of musculoskeletal shockwaves // 9th International Congress of the International Society for Musculoskeletal Shockwave Therapy (ISMST). News Letter ISMST. – 2006. – Vol. 1. – P. 5–11.
  54. Yan X., Zeng B., et al. Improvement of blood flow, expression of nitric oxide, and vascular endothelial growth factor by low-energy shockwave therapy in random-pattern skin flap model // Ann. Plast. Surg. - 2008. – Vol. 61(6). – P. 646-653.
  55. Yap E.C. Myofascial pain: an overview // Ann. Acad. Med. Singapore. – 2007. - Vol. 36 (1). - P. 43-48.